SU1195133A1 - Arrangement for steam cooling - Google Patents

Abstract

1. A COOLING DEVICE FOR STEAM, containing a mixing chamber installed in the pipeline, 99 Soffa g pt / complete in the form of a Venturi pipe with water distributors having water distribution openings, characterized in that, in order to increase reliability and cooling efficiency, the holes in the water distributors are made on their side surfaces, while the projections of the axes of the holes are located along. to the sides of a regular polygon inscribed in a coaxial Venturi tube, a circle with a diameter equal to 0.40-0.45 diameter of the narrowed part of the Venturi tube. 2. A device according to claim 1, characterized in that the water distributors are arranged in a shahmatny order. (L with JV CO with

Description

The invention relates to energy and can be used in injection throttle-cooling plants.

The aim of invention is to increase reliability and efficiency of cooling steam by an intensification of mass transfer ⁵ and the injection water.

In FIG. 1 shows a device, a General view; in FIG. 2 - the same, transverse section.

A device for cooling steam contains 10 Pipeline 1 steam, in which a mixing chamber 2 is installed, made in the form of a Venturi pipe, consisting of a confuser 3, a cylindrical (narrowed) part 4 and a diffuser 5. In the narrowed part 4 there are openings 6, which are provided water distributors 7 and 8. Distributors 7 and 8 are perforated. The outlet openings 9 of the water distributors 7 and 8 are located on their lateral surfaces with the formation of the projections of the axes of the openings of the sides of a regular polygon inscribed in a circle with a diameter equal to 0.40- ^ 0.45 of the diameter of the narrowed part 4 of the Venturi ( 'άγ = 0.40-0.45), the center of which lies on the axis of the mixing chamber 2 (Fig. 2). The number of water dispensers 7 and 8 can be different, but the maximum efficiency is achieved for four water dispensers 7 and 8. The location of the water dispensers 7 and 8 in the adjacent rows is staggered. 3θ

The device operates as follows.

Pipeline 1 receives a stream of steam. Water through holes 6 located in the narrowed part 4 of the Venturi pipe enters the water distributors 7 and 8. From the water distributor 35 dividers 7 and 8, water is injected into the steam stream in the form of a system of transverse jets. The location of the outlet openings 9 on the water distributors 7 and 8 determines the collision of the jets of the adjacent water distributors 7 and 8, as a result of which the kinetic energy of the water jets, which in the general case determines the radial flow of water, is lost along the cross section of the mixing chamber 2, the intensity of turbulence in the mixing zone of the steam stream increases sharply and water. With the number of water distributors 7 and 8 equal to four, the jets are directed towards each other. As a result, at any water flow rate, the redistribution of water over the cross section of the mixing chamber 2 remains constant and optimal. When the number of water distributors 7 and 8 in a row is more than four, water jets collide at an angle, which leads to a large flow of water to move the merged jets to the peripheral part of the mixing chamber 2, respectively, relative supercooling of this zone, and to some decrease in the efficiency of the device in the vicinity of maximum injection values.

The value όόγ = 0.40-0.45 was obtained on the basis of experimental testing on models with the interaction of homogeneous and heterogeneous media. When “bu <0.40, in the general case, water re-enrichment of the central part of the mixer is realized (with the number of dispensers more than four, at high flow rates it is possible to realize a uniform distribution of rinse water for one flow value and re-enrichment of the peripheral layers of the mixer). When άγ> 0.45, a lack of injection water is always realized in the central part. In both cases, the efficiency of mass transfer of water and steam is deteriorating, the process of evaporation of water droplets and alignment of the temperature field of the steam flow is delayed, which in turn leads to a decrease in the reliability of the device.

The checkerboard staggered arrangement allows to increase the circumferential uniformity of the distribution of parameters. In this way, heat and mass transfer is intensified and stabilized, i.e. increases reliability and cooling efficiency.

VNIIIPI Order 7403/42 Circulation 403 Subscription

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (3)

1. DEVICE FOR COOLING STEAM, containing a mixing chamber installed in the pipeline, made in the form of a Venturi pipe with water distributors located in its narrowed part, having openings for water supply, characterized in that, in order to increase the reliability and efficiency of cooling, openings in water distributors made on their lateral surfaces, while the projections of the axes of the holes are located on the sides of a regular polygon inscribed in a circle with a diameter equal to 0.40-0.45 in the coaxial Venturi pipe angling of the tube venturi. 2. The device according to π. 1, characterized in that the water distributors are staggered. 6 4 5 FIG. 1